freebsd-skq/lib/libc/gen/getpwent.c

863 lines
19 KiB
C
Raw Normal View History

1994-05-27 05:00:24 +00:00
/*
* Copyright (c) 1988, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
1994-05-27 05:00:24 +00:00
*/
#if defined(LIBC_SCCS) && !defined(lint)
static char sccsid[] = "@(#)getpwent.c 8.2 (Berkeley) 4/27/95";
1994-05-27 05:00:24 +00:00
#endif /* LIBC_SCCS and not lint */
#include <stdio.h>
1994-05-27 05:00:24 +00:00
#include <sys/param.h>
#include <fcntl.h>
#include <db.h>
#include <syslog.h>
#include <pwd.h>
#include <utmp.h>
#include <errno.h>
#include <unistd.h>
#include <stdlib.h>
#include <string.h>
#include <limits.h>
#include <grp.h>
1994-05-27 05:00:24 +00:00
extern void setnetgrent __P(( char * ));
extern int getnetgrent __P(( char **, char **, char ** ));
extern int innetgr __P(( const char *, const char *, const char *, const char * ));
/*
* The lookup techniques and data extraction code here must be kept
* in sync with that in `pwd_mkdb'.
*/
1994-05-27 05:00:24 +00:00
static struct passwd _pw_passwd; /* password structure */
static DB *_pw_db; /* password database */
static int _pw_keynum; /* key counter */
static int _pw_stayopen; /* keep fd's open */
#ifdef YP
#include <rpc/rpc.h>
#include <rpcsvc/yp_prot.h>
#include <rpcsvc/ypclnt.h>
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static struct passwd _pw_copy;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static DBT empty = { NULL, 0 };
static DB *_ypcache = (DB *)NULL;
static int _yp_exclusions = 0;
static int _yp_enabled = -1;
static int _pw_stepping_yp; /* set true when stepping thru map */
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static char _ypnam[YPMAXRECORD];
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
#define YP_HAVE_MASTER 2
#define YP_HAVE_ADJUNCT 1
#define YP_HAVE_NONE 0
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
static int _gotmaster;
static char *_pw_yp_domain;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static inline int unwind __P(( char * ));
static void _ypinitdb __P(( void ));
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static int _havemaster __P((char *));
static int _getyppass __P((struct passwd *, const char *, const char * ));
static int _nextyppass __P((struct passwd *));
static inline int lookup __P((const char *));
static inline void store __P((const char *));
static inline int ingr __P((const char *, const char*));
static inline int verf __P((const char *));
static char * _get_adjunct_pw __P((const char *));
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
#endif
static int __hashpw(DBT *);
static int __initdb(void);
1994-05-27 05:00:24 +00:00
struct passwd *
getpwent()
{
DBT key;
char bf[sizeof(_pw_keynum) + 1];
int rv;
1994-05-27 05:00:24 +00:00
if (!_pw_db && !__initdb())
return((struct passwd *)NULL);
#ifdef YP
if(_pw_stepping_yp) {
_pw_passwd = _pw_copy;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (unwind((char *)&_ypnam))
return(&_pw_passwd);
}
#endif
tryagain:
1994-05-27 05:00:24 +00:00
++_pw_keynum;
bf[0] = _PW_KEYBYNUM;
bcopy((char *)&_pw_keynum, bf + 1, sizeof(_pw_keynum));
key.data = (u_char *)bf;
key.size = sizeof(_pw_keynum) + 1;
rv = __hashpw(&key);
if(!rv) return (struct passwd *)NULL;
#ifdef YP
if(_pw_passwd.pw_name[0] == '+' || _pw_passwd.pw_name[0] == '-') {
if (_yp_enabled == -1)
_ypinitdb();
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
bzero((char *)&_ypnam, sizeof(_ypnam));
bcopy(_pw_passwd.pw_name, _ypnam,
strlen(_pw_passwd.pw_name));
_pw_copy = _pw_passwd;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (unwind((char *)&_ypnam) == 0)
goto tryagain;
else
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
return(&_pw_passwd);
}
#else
/* Ignore YP password file entries when YP is disabled. */
if(_pw_passwd.pw_name[0] == '+' || _pw_passwd.pw_name[0] == '-') {
goto tryagain;
}
#endif
return(&_pw_passwd);
1994-05-27 05:00:24 +00:00
}
struct passwd *
getpwnam(name)
const char *name;
{
DBT key;
int len, rval;
char bf[UT_NAMESIZE + 2];
1994-05-27 05:00:24 +00:00
if (!_pw_db && !__initdb())
return((struct passwd *)NULL);
bf[0] = _PW_KEYBYNAME;
len = strlen(name);
if (len > UT_NAMESIZE)
return(NULL);
bcopy(name, bf + 1, len);
1994-05-27 05:00:24 +00:00
key.data = (u_char *)bf;
key.size = len + 1;
rval = __hashpw(&key);
#ifdef YP
if (!rval) {
if (_yp_enabled == -1)
_ypinitdb();
if (_yp_enabled)
rval = _getyppass(&_pw_passwd, name, "passwd.byname");
}
#endif
/*
* Prevent login attempts when YP is not enabled but YP entries
* are in /etc/master.passwd.
*/
if (rval && (_pw_passwd.pw_name[0] == '+'||
_pw_passwd.pw_name[0] == '-')) rval = 0;
if (!_pw_stayopen)
endpwent();
1994-05-27 05:00:24 +00:00
return(rval ? &_pw_passwd : (struct passwd *)NULL);
}
struct passwd *
getpwuid(uid)
uid_t uid;
1994-05-27 05:00:24 +00:00
{
DBT key;
int keyuid, rval;
char bf[sizeof(keyuid) + 1];
if (!_pw_db && !__initdb())
return((struct passwd *)NULL);
bf[0] = _PW_KEYBYUID;
keyuid = uid;
bcopy(&keyuid, bf + 1, sizeof(keyuid));
key.data = (u_char *)bf;
key.size = sizeof(keyuid) + 1;
rval = __hashpw(&key);
#ifdef YP
if (!rval) {
if (_yp_enabled == -1)
_ypinitdb();
if (_yp_enabled) {
char ypbuf[16]; /* big enough for 32-bit uids */
snprintf(ypbuf, sizeof ypbuf, "%u", (unsigned)uid);
rval = _getyppass(&_pw_passwd, ypbuf, "passwd.byuid");
}
}
#endif
/*
* Prevent login attempts when YP is not enabled but YP entries
* are in /etc/master.passwd.
*/
if (rval && (_pw_passwd.pw_name[0] == '+'||
_pw_passwd.pw_name[0] == '-')) rval = 0;
if (!_pw_stayopen)
endpwent();
1994-05-27 05:00:24 +00:00
return(rval ? &_pw_passwd : (struct passwd *)NULL);
}
int
setpassent(stayopen)
int stayopen;
{
_pw_keynum = 0;
#ifdef YP
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
_pw_stepping_yp = 0;
#endif
1994-05-27 05:00:24 +00:00
_pw_stayopen = stayopen;
return(1);
}
void
1994-05-27 05:00:24 +00:00
setpwent()
{
(void)setpassent(0);
1994-05-27 05:00:24 +00:00
}
void
endpwent()
{
_pw_keynum = 0;
#ifdef YP
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
_pw_stepping_yp = 0;
#endif
1994-05-27 05:00:24 +00:00
if (_pw_db) {
(void)(_pw_db->close)(_pw_db);
_pw_db = (DB *)NULL;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
}
#ifdef YP
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (_ypcache) {
(void)(_ypcache->close)(_ypcache);
_ypcache = (DB *)NULL;
_yp_exclusions = 0;
1994-05-27 05:00:24 +00:00
}
/* Fix for PR #12008 */
_yp_enabled = -1;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
#endif
1994-05-27 05:00:24 +00:00
}
static int
1994-05-27 05:00:24 +00:00
__initdb()
{
static int warned;
char *p;
p = (geteuid()) ? _PATH_MP_DB : _PATH_SMP_DB;
_pw_db = dbopen(p, O_RDONLY, 0, DB_HASH, NULL);
if (_pw_db)
1994-05-27 05:00:24 +00:00
return(1);
if (!warned++)
1994-05-27 05:00:24 +00:00
syslog(LOG_ERR, "%s: %m", p);
return(0);
}
static int
1994-05-27 05:00:24 +00:00
__hashpw(key)
DBT *key;
{
register char *p, *t;
static u_int max;
static char *line;
DBT data;
if ((_pw_db->get)(_pw_db, key, &data, 0))
1994-05-27 05:00:24 +00:00
return(0);
p = (char *)data.data;
/* Increase buffer size for long lines if necessary. */
if (data.size > max) {
max = data.size + 1024;
if (!(line = reallocf(line, max)))
return(0);
}
1994-05-27 05:00:24 +00:00
/* THIS CODE MUST MATCH THAT IN pwd_mkdb. */
1994-05-27 05:00:24 +00:00
t = line;
#define EXPAND(e) e = t; while ( (*t++ = *p++) );
#define SCALAR(v) memmove(&(v), p, sizeof v); p += sizeof v
1994-05-27 05:00:24 +00:00
EXPAND(_pw_passwd.pw_name);
EXPAND(_pw_passwd.pw_passwd);
SCALAR(_pw_passwd.pw_uid);
SCALAR(_pw_passwd.pw_gid);
SCALAR(_pw_passwd.pw_change);
1994-05-27 05:00:24 +00:00
EXPAND(_pw_passwd.pw_class);
EXPAND(_pw_passwd.pw_gecos);
EXPAND(_pw_passwd.pw_dir);
EXPAND(_pw_passwd.pw_shell);
SCALAR(_pw_passwd.pw_expire);
bcopy(p, (char *)&_pw_passwd.pw_fields, sizeof _pw_passwd.pw_fields);
p += sizeof _pw_passwd.pw_fields;
1994-05-27 05:00:24 +00:00
return(1);
}
#ifdef YP
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
static void
_ypinitdb()
{
DBT key, data;
char buf[] = { _PW_KEYYPENABLED };
key.data = buf;
key.size = 1;
_yp_enabled = 0;
if ((_pw_db->get)(_pw_db, &key, &data, 0) == 0) {
_yp_enabled = (int)*((char *)data.data) - 2;
/* Don't even bother with this if we aren't root. */
if (!geteuid()) {
if (!_pw_yp_domain)
if (yp_get_default_domain(&_pw_yp_domain))
return;
_gotmaster = _havemaster(_pw_yp_domain);
} else _gotmaster = YP_HAVE_NONE;
/*
* Create a DB hash database in memory. Bet you didn't know you
* could do a dbopen() with a NULL filename, did you.
*/
if (_ypcache == (DB *)NULL)
_ypcache = dbopen(NULL, O_RDWR, 600, DB_HASH, NULL);
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
/*
* See if a user is in the blackballed list.
*/
static inline int
lookup(name)
const char *name;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
{
DBT key;
if (!_yp_exclusions)
return(0);
key.data = (char *)name;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
key.size = strlen(name);
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if ((_ypcache->get)(_ypcache, &key, &empty, 0)) {
return(0);
}
return(1);
}
/*
* Store a blackballed user in an in-core hash database.
*/
static inline void
store(key)
const char *key;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
{
DBT lkey;
/*
if (lookup(key))
return;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
*/
_yp_exclusions = 1;
lkey.data = (char *)key;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
lkey.size = strlen(key);
(void)(_ypcache->put)(_ypcache, &lkey, &empty, R_NOOVERWRITE);
}
/*
* Parse the + entries in the password database and do appropriate
* NIS lookups. While ugly to look at, this is optimized to do only
* as many lookups as are absolutely necessary in any given case.
* Basically, the getpwent() function will feed us + and - lines
* as they appear in the database. For + lines, we do netgroup/group
* and user lookups to find all usernames that match the rule and
* extract them from the NIS passwd maps. For - lines, we save the
* matching names in a database and a) exlude them, and b) make sure
* we don't consider them when processing other + lines that appear
* later.
*/
static inline int
unwind(grp)
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
char *grp;
{
char *user, *host, *domain;
static int latch = 0;
static struct group *gr = NULL;
int rv = 0;
if (grp[0] == '+') {
if (strlen(grp) == 1) {
return(_nextyppass(&_pw_passwd));
}
if (grp[1] == '@') {
_pw_stepping_yp = 1;
grpagain:
if (gr != NULL) {
if (*gr->gr_mem != NULL) {
if (lookup(*gr->gr_mem)) {
gr->gr_mem++;
goto grpagain;
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
rv = _getyppass(&_pw_passwd,
*gr->gr_mem,
"passwd.byname");
gr->gr_mem++;
return(rv);
} else {
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
endgrent();
latch = 0;
_pw_stepping_yp = 0;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
gr = NULL;
return(0);
}
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (!latch) {
setnetgrent(grp+2);
latch++;
}
again:
if (getnetgrent(&host, &user, &domain) == 0) {
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if ((gr = getgrnam(grp+2)) != NULL)
goto grpagain;
latch = 0;
_pw_stepping_yp = 0;
return(0);
} else {
if (lookup(user))
goto again;
if (_getyppass(&_pw_passwd, user,
"passwd.byname"))
return(1);
else
goto again;
}
} else {
if (lookup(grp+1))
return(0);
return(_getyppass(&_pw_passwd, grp+1, "passwd.byname"));
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
} else {
if (grp[1] == '@') {
setnetgrent(grp+2);
rv = 0;
while(getnetgrent(&host, &user, &domain) != 0) {
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
store(user);
rv++;
}
if (!rv && (gr = getgrnam(grp+2)) != NULL) {
while(*gr->gr_mem) {
store(*gr->gr_mem);
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
gr->gr_mem++;
}
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
} else {
store(grp+1);
}
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
return(0);
}
/*
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
* See if a user is a member of a particular group.
*/
static inline int
ingr(grp, name)
const char *grp;
const char *name;
{
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
register struct group *gr;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if ((gr = getgrnam(grp)) == NULL)
return(0);
while(*gr->gr_mem) {
if (!strcmp(*gr->gr_mem, name)) {
endgrent();
return(1);
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
gr->gr_mem++;
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
endgrent();
return(0);
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
/*
* Check a user against the +@netgroup/-@netgroup lines listed in
* the local password database. Also checks +user/-user lines.
* If no netgroup exists that matches +@netgroup/-@netgroup,
* try searching regular groups with the same name.
*/
static inline int
verf(name)
const char *name;
{
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
DBT key;
char bf[sizeof(_pw_keynum) + 1];
int keynum = 0;
again:
++keynum;
bf[0] = _PW_KEYYPBYNUM;
bcopy((char *)&keynum, bf + 1, sizeof(keynum));
key.data = (u_char *)bf;
key.size = sizeof(keynum) + 1;
if (!__hashpw(&key)) {
/* Try again using old format */
bf[0] = _PW_KEYBYNUM;
bcopy((char *)&keynum, bf + 1, sizeof(keynum));
key.data = (u_char *)bf;
if (!__hashpw(&key))
return(0);
}
if (_pw_passwd.pw_name[0] != '+' && (_pw_passwd.pw_name[0] != '-'))
goto again;
if (_pw_passwd.pw_name[0] == '+') {
if (strlen(_pw_passwd.pw_name) == 1) /* Wildcard */
return(1);
if (_pw_passwd.pw_name[1] == '@') {
if ((innetgr(_pw_passwd.pw_name+2, NULL, name,
_pw_yp_domain) ||
ingr(_pw_passwd.pw_name+2, name)) && !lookup(name))
return(1);
else
goto again;
} else {
if (!strcmp(name, _pw_passwd.pw_name+1) &&
!lookup(name))
return(1);
else
goto again;
}
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (_pw_passwd.pw_name[0] == '-') {
/* Note that a minus wildcard is a no-op. */
if (_pw_passwd.pw_name[1] == '@') {
if (innetgr(_pw_passwd.pw_name+2, NULL, name,
_pw_yp_domain) ||
ingr(_pw_passwd.pw_name+2, name)) {
store(name);
return(0);
} else
goto again;
} else {
if (!strcmp(name, _pw_passwd.pw_name+1)) {
store(name);
return(0);
} else
goto again;
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
}
return(0);
}
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
static char *
_get_adjunct_pw(name)
const char *name;
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
{
static char adjunctbuf[YPMAXRECORD+2];
int rval;
char *result;
int resultlen;
char *map = "passwd.adjunct.byname";
char *s;
if ((rval = yp_match(_pw_yp_domain, map, name, strlen(name),
&result, &resultlen)))
return(NULL);
strncpy(adjunctbuf, result, resultlen);
adjunctbuf[resultlen] = '\0';
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
free(result);
result = (char *)&adjunctbuf;
/* Don't care about the name. */
if ((s = strsep(&result, ":")) == NULL)
return (NULL); /* name */
if ((s = strsep(&result, ":")) == NULL)
return (NULL); /* password */
return(s);
}
static int
_pw_breakout_yp(struct passwd *pw, char *res, int resultlen, int master)
{
char *s, *result;
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
static char resbuf[YPMAXRECORD+2];
1995-06-11 19:33:05 +00:00
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
/*
* Be triple, ultra super-duper paranoid: reject entries
* that start with a + or -. yp_mkdb and /var/yp/Makefile
* are _both_ supposed to strip these out, but you never
* know.
*/
if (*res == '+' || *res == '-')
return 0;
/*
* The NIS protocol definition limits the size of an NIS
* record to YPMAXRECORD bytes. We need to do a copy to
* a static buffer here since the memory pointed to by
* res will be free()ed when this function returns.
*/
strncpy((char *)&resbuf, res, resultlen);
resbuf[resultlen] = '\0';
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
result = (char *)&resbuf;
/*
* XXX Sanity check: make sure all fields are valid (no NULLs).
* If we find a badly formatted entry, we punt.
*/
if ((s = strsep(&result, ":")) == NULL) return 0; /* name */
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
/*
* We don't care what pw_fields says: we _always_ want the
* username returned to us by NIS.
*/
pw->pw_name = s;
pw->pw_fields |= _PWF_NAME;
if ((s = strsep(&result, ":")) == NULL) return 0; /* password */
if(!(pw->pw_fields & _PWF_PASSWD)) {
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
/* SunOS passwd.adjunct hack */
if (master == YP_HAVE_ADJUNCT && strstr(s, "##") != NULL) {
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
char *realpw;
realpw = _get_adjunct_pw(pw->pw_name);
if (realpw == NULL)
pw->pw_passwd = s;
else
pw->pw_passwd = realpw;
} else {
pw->pw_passwd = s;
}
pw->pw_fields |= _PWF_PASSWD;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* uid */
if(!(pw->pw_fields & _PWF_UID)) {
pw->pw_uid = atoi(s);
pw->pw_fields |= _PWF_UID;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* gid */
if(!(pw->pw_fields & _PWF_GID)) {
pw->pw_gid = atoi(s);
pw->pw_fields |= _PWF_GID;
}
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
if (master == YP_HAVE_MASTER) {
if ((s = strsep(&result, ":")) == NULL) return 0; /* class */
if(!(pw->pw_fields & _PWF_CLASS)) {
pw->pw_class = s;
pw->pw_fields |= _PWF_CLASS;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* change */
if(!(pw->pw_fields & _PWF_CHANGE)) {
pw->pw_change = atol(s);
pw->pw_fields |= _PWF_CHANGE;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* expire */
if(!(pw->pw_fields & _PWF_EXPIRE)) {
pw->pw_expire = atol(s);
pw->pw_fields |= _PWF_EXPIRE;
}
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* gecos */
if(!(pw->pw_fields & _PWF_GECOS)) {
pw->pw_gecos = s;
pw->pw_fields |= _PWF_GECOS;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* dir */
if(!(pw->pw_fields & _PWF_DIR)) {
pw->pw_dir = s;
pw->pw_fields |= _PWF_DIR;
}
if ((s = strsep(&result, ":")) == NULL) return 0; /* shell */
if(!(pw->pw_fields & _PWF_SHELL)) {
pw->pw_shell = s;
pw->pw_fields |= _PWF_SHELL;
}
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
/* Be consistent. */
if ((s = strchr(pw->pw_shell, '\n'))) *s = '\0';
return 1;
}
static int
_havemaster(char *_yp_domain)
{
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
int order;
int rval;
if (!(rval = yp_order(_yp_domain, "master.passwd.byname", &order)))
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
return(YP_HAVE_MASTER);
/*
* NIS+ in YP compat mode doesn't support
* YPPROC_ORDER -- no point in continuing.
*/
if (rval == YPERR_YPERR)
return(YP_HAVE_NONE);
/* master.passwd doesn't exist -- try passwd.adjunct */
if (rval == YPERR_MAP) {
rval = yp_order(_yp_domain, "passwd.adjunct.byname", &order);
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
if (!rval)
return(YP_HAVE_ADJUNCT);
}
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
return (YP_HAVE_NONE);
}
static int
_getyppass(struct passwd *pw, const char *name, const char *map)
{
char *result, *s;
int resultlen;
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
int rv;
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
char mastermap[YPMAXRECORD];
if(!_pw_yp_domain) {
if(yp_get_default_domain(&_pw_yp_domain))
return 0;
}
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
if (_gotmaster == YP_HAVE_MASTER)
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
sprintf(mastermap,"master.%s", map);
else
sprintf(mastermap,"%s",map);
1995-05-30 05:51:47 +00:00
if(yp_match(_pw_yp_domain, (char *)&mastermap, name, strlen(name),
&result, &resultlen)) {
if (_gotmaster != YP_HAVE_MASTER)
return 0;
sprintf(mastermap,"%s",map);
if (yp_match(_pw_yp_domain, (char *)&mastermap,
name, strlen(name), &result, &resultlen))
return 0;
_gotmaster = YP_HAVE_NONE;
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (!_pw_stepping_yp) {
s = strchr(result, ':');
if (s) {
*s = '\0';
} else {
/* Must be a malformed entry if no colons. */
free(result);
return(0);
}
if (!verf(result)) {
*s = ':';
free(result);
return(0);
}
*s = ':'; /* Put back the colon we previously replaced with a NUL. */
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
rv = _pw_breakout_yp(pw, result, resultlen, _gotmaster);
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
free(result);
return(rv);
}
static int
_nextyppass(struct passwd *pw)
{
static char *key;
static int keylen;
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
char *lastkey, *result, *s;
int resultlen;
int rv;
char *map = "passwd.byname";
if(!_pw_yp_domain) {
if(yp_get_default_domain(&_pw_yp_domain))
return 0;
}
Add support for detecting and hopefully using the passwd.adjunct.byname NIS map which is present on SunOS NIS servers with the SunOS C2 security hack^Woption installed. I'm convinced that the C2 security option restricts access to the passwd.adjunct.byname map in the same way that I restrict access to the master.passwd.{byname,buid} maps (checking for reserved ports), which means that we should be able to handle passwd.adjunct.byname map correctly. If _havemaster() doesn't find a master.passwd.byname map, it will now test for a passwd.adjunct.byname map before defaulting back to the standard non-shadowed passwd.{byname,byuid} maps. If _pw_breakout_yp() sees that the adjunct map was found and the password from the standard maps starts with ##, it will try to grab the correct password field from the adjunct map. As with the master.passwd maps, this only happens if the caller is root, so the shadowing feature is preserved; non-root users just get back ##username as the encrypted password. Note that all we do is grab the second field from the passwd.adjunct.byname entry, which is designated to be the real encrypted password. There are other auditing fields in the entry but they aren't of much use to us. Also switched back to using yp_order() to probe for the maps (instead of yp_first()). The original problem with yp_order() was that it barfed with NIS+ servers in YP compat mode since they don't support the YPPROC_ORDER procedure. This condition is handled a bit more gracefully in yplib now: we can detect the error and just punt on the probing.
1996-12-03 17:55:49 +00:00
if (_gotmaster == YP_HAVE_MASTER)
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
map = "master.passwd.byname";
if(!_pw_stepping_yp) {
if(key) free(key);
rv = yp_first(_pw_yp_domain, map,
&key, &keylen, &result, &resultlen);
if(rv) {
return 0;
}
_pw_stepping_yp = 1;
goto unpack;
} else {
tryagain:
lastkey = key;
rv = yp_next(_pw_yp_domain, map, key, keylen,
&key, &keylen, &result, &resultlen);
free(lastkey);
unpack:
if(rv) {
_pw_stepping_yp = 0;
return 0;
}
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
s = strchr(result, ':');
if (s) {
*s = '\0';
} else {
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
/* Must be a malformed entry if no colons. */
free(result);
goto tryagain;
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
if (lookup(result)) {
*s = ':';
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
free(result);
goto tryagain;
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
}
NIS cleanups and fixes, the next generation. getnetgrent.c: - Catch one bogon that snuck by: in _listmatch(), check for '\0' rather than '\n'; strings returned from yp_match() are terminated with a nul, not a newline. getpwent.c: - Rip out all of the +inclusion/-exclusion stuff from before and replace it with something a little less grotty. The main problem with the old mechanism was that it wasted many cycles processing NIS entries even after it already knew they were to be exlcuded (or not included, depending on your pointof view). The highlights of these changes include: o Uses an in-memory hash database table to keep track of all the -@netgroup, -user, and -@group exclusions. o Tries harder to duplicate the behavior normally obtained when using NIS inclusions/exclusions on a flat /etc/passwd file (meaning things come out in much the same order). o Uses seperate methods for handling getpwent() and getpwnam()/getpwuid() operations instead of trying to do everything with one general function, which didn't work as well as I thought it would. o Uses both getnetgrent() and innetgr() to try to save time where possible. o Use only one special token in the local password database (_PW_KEYYPBYNUM) instead of seperate tokens to mark + and - entries (and stop using the counter tokens too). If this new token doesn't exist, the code will make due with the standard _PW_KEYBYNUM token in order to support older databases that won't have the new token in them. All this is an attempt to make this stuff work better in environments with large NIS passwd databases.
1996-04-16 00:22:41 +00:00
*s = ':'; /* Put back the colon we previously replaced with a NUL. */
if (_pw_breakout_yp(pw, result, resultlen, _gotmaster)) {
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
free(result);
return(1);
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
} else {
free(result);
goto tryagain;
Another tweak/speedup pass: - Fix buffer overflow problem once and for all: do away with the buffer copies to 'user' prior to calling _scancaches() and just pass a pointer to the buffer returned by yp_match()/yp_first()/yp_next()/whatever. (We turn the first ':' to a NUL first so strcmp() works, then change it back later. Submitted by Bill Fenner <fenner@parc.xerox.com> and tweaked slightly by me. - Give _pw_breakout_yp() the 'more elegant solution' I promised way back when. Eliminate several copies to static buffers and replace them with just one copy. (The buffer returned by the NIS functions is at most YPMAXRECORD bytes long, so we should only need one static buffer of the same length (plus 2 for paranoia's sake).) - Also in _pw_breakout_yp(): always set pw.pw_passwd to the username obtained via NIS regardless of what pw_fields says: usernames cannot be overridden so we have no choice but to use the name returned by NIS. - _Again_ in _pw_breakout_yp(): before doing anything else, check that the first character of the NIS-returned buffer is not a '+' or '-'. If it is, drop the entry. (#define EXTRA_PARANOIA 1 :) - Probe for the master.passwd.* maps once during __initdb() instead of doing it each time _getyppass() or _nextyppass() is called. - Don't copy the NIS data buffers to static memory in _getyppass() and _nextyppass(): this is done in _pw_breakout_yp() now. - Test against phkmalloc and phkmalloc/2 (TNG!) to make sure we're free()ing the yp buffers sanely. - Put _havemaster(), _getyppass() and nextyppass() prototypes under #ifdef YP. (Somehow they ended up on the wrong side of the #endif.) - Remove unused variable ___yp_only.
1995-10-11 21:35:08 +00:00
}
}
}
1995-05-30 05:51:47 +00:00
#endif /* YP */